CN211620359U - Glass tempering cooling air grid with regulation type air guide shovel - Google Patents

Abstract

A glass tempering cooling air grid with an adjustable air guide shovel is arranged on a rack and comprises an air guide shovel component, an upper air grid and a lower air grid, wherein the upper air grid and the lower air grid are driven by a lifting mechanism to move up and down respectively; the fixed pulley assembly is at least one and is respectively fixed on the front side and the rear side of the frame, one end of the fixed pulley assembly is connected with the end part of the upper air guide shovel, the other end of the fixed pulley assembly is connected with the end part of the lower air guide shovel, the upper air guide shovel and the lower air guide shovel are respectively arranged above and below the glass conveying roller way, and the lower edge of the upper air guide shovel and the upper edge of the lower air guide shovel are both close to the conveying surface of the glass conveying roller way; and the fixed pulley assembly is connected with a power mechanism, or the upper air guide shovel or the lower air guide shovel is connected with power equipment. The utility model discloses make the cooling air can not blowback to the heating furnace, simultaneously, still when glass is broken, can quick adjustment wind-guiding shovel position, carry out garrulous glass's getting rid of.

Description

Glass tempering cooling air grid with regulation type air guide shovel

Technical Field

The utility model relates to a glass shaping technical field, what specifically says so is a glass tempering cooling air grid with regulation type air guide shovel.

Background

The cooling air grid is used as a necessary tempering device for a glass tempering section and is used for blowing out cooling air to realize glass tempering, when glass comes out from the heating furnace and enters the cooling section for cooling and blowing, the cooling air can enter the heating furnace along the gap between the glass and the upper and lower air grids, so that the temperature in the furnace is reduced, the energy consumption of the tempering heating furnace is increased, the production cost is increased, and therefore, the conventional cooling air grid is provided with the air guide shovel to prevent the cooling air from blowing into the heating furnace.

When glass is broken, because the position of the air guide shovel is fixed and cannot be adjusted, broken glass is easily blocked at the air guide shovel, and the glass can be cleaned only by dismantling the air guide shovel; and when the glass with different thicknesses is cooled and blown, the air guide shovel with fixed distance from the surface of the glass conveying roller can cause the problems of small adjusting distance range, inconvenient adjustment and the like.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a glass tempering cooling air grid with regulation type wind-guiding shovel makes the cooling air can not blowback to heating furnace, simultaneously, still when glass is broken, can quick adjustment wind-guiding shovel position, carries out garrulous glass's getting rid of.

In order to realize the technical purpose, the adopted technical scheme is as follows: a glass tempering cooling air grid with an adjustable air guide shovel is arranged on a rack, a glass inlet and a glass outlet are formed in two ends of the rack, the cooling air grid comprises an air guide shovel component, an upper air grid and a lower air grid, a glass conveying roller way is arranged between the upper air grid and the lower air grid, the upper air grid and the lower air grid are driven by a lifting mechanism to move up and down respectively, and the air guide shovel component comprises an upper air guide shovel, a lower air guide shovel and a fixed pulley component; the fixed pulley assembly is at least one and is respectively fixed on the front side and the rear side of the frame, one end of the fixed pulley assembly is connected with the end part of the upper air guide shovel, the other end of the fixed pulley assembly is connected with the end part of the lower air guide shovel, the upper air guide shovel and the lower air guide shovel are respectively arranged above and below the glass conveying roller way, and the lower edge of the upper air guide shovel and the upper edge of the lower air guide shovel are both close to the conveying surface of the glass conveying roller way; and the fixed pulley assembly is connected with a power mechanism, or the upper air guide shovel or the lower air guide shovel is connected with power equipment.

Furthermore, the number of the fixed pulley assemblies is two, and the fixed pulley assemblies are respectively fixed on the front side and the rear side of the inlet side of the frame glass.

Furthermore, the fixed pulley assembly is one and is fixed in the middle of the inlet side of the frame glass.

Furthermore, the power equipment connected with the upper air guide shovel is an upper air grid, the upper air guide shovel and the upper air grid are fixedly connected or in contact connection, and the upper air guide shovel drives the lower air guide shovel to lift through a fixed pulley assembly; or the power equipment connected with the lower air guide shovel is a lower air grid, the lower air guide shovel and the lower air grid are fixedly connected or in contact connection, and the lower air guide shovel drives the upper air guide shovel to lift through the fixed pulley assembly.

Further, the contact type connection is performed through a contact type connection assembly, and the contact type connection assembly comprises a force application plate and a pressed plate; when the upper air guide shovel is in contact connection with the upper air grid, the pressure receiving plate is fixedly arranged on the upper air guide shovel, the force applying plate is correspondingly arranged below the pressure receiving plate, and the force applying plate is fixed on the upper air grid on the inlet side of the glass; when the lower air guide shovel is in contact connection with the lower air grid, a pressure receiving plate is fixedly arranged on the lower air guide shovel, and a force applying plate fixed on the lower air grid at the glass inlet side is correspondingly arranged above the pressure receiving plate. The contact-type connecting assembly can also be replaced by an air cylinder assembly, a hydraulic cylinder assembly, an electric cylinder assembly or an electric push rod assembly;

furthermore, the fixed connection is through adjusting the seat and connecting.

Furthermore, the wind guide shovel component also comprises a guide mechanism, the guide mechanism comprises guide pipes and vertical guide grooves arranged on the left side and the right side of the rack on the inlet side of the glass, the number of the guide pipes is at least two, the guide pipes are arranged on the upper wind guide shovel and/or the lower wind guide shovel, and one end of each guide pipe is arranged in the guide groove in a sliding manner.

Furthermore, the fixed pulley assembly comprises a fixed pulley and a pull rope, the pull rope bypasses the fixed pulley, one end of the pull rope is connected with the upper air guide shovel, and the other end of the pull rope is connected with the lower air guide shovel.

Furthermore, the power mechanism is connected to the fixed pulley to drive the fixed pulley to rotate, or the power mechanism is connected to the pull rope to pull the pull rope to move up and down.

Furthermore, the pull rope is a steel wire rope, and the fixed pulley is a steel wire rope pulley; or the pull rope is a chain, and the fixed pulley is a chain wheel.

Furthermore, the upper air guide shovel is a double-layer or multi-layer air guide shovel.

Furthermore, the weight of the upper air guide shovel is larger than that of the lower air guide shovel.

Further, the power equipment connected with the upper air guide shovel is a linear action mechanism, the linear action mechanism is fixed on the rack 14, and the upper air guide shovel drives the lower air guide shovel to lift through a fixed pulley assembly; or the power equipment connected with the lower air guide shovel is a linear action mechanism, the linear action mechanism is fixed on the rack 14, and the lower air guide shovel drives the upper air guide shovel to lift through the fixed pulley assembly.

The utility model has the advantages that: the lifting of the air guide shovel is driven by the lifting of the upper air grid or the lower air grid, when the glass with different thicknesses is blown, the height of the upper air grid and the lower air grid is adjusted as required, the air guide shovel component can be directly driven to adjust the distance, and the air guide shovel component is convenient and labor-saving.

When glass is broken, the upper air guide shovel can be lifted or the lower air guide shovel can be pulled down directly in a lifting mode of the upper air grid and the lower air grid, the other air guide shovel is driven to move through the fixed pulley assembly, the broken glass is conveniently cleaned and discharged from a furnace, or one air guide shovel is driven to be linked with the other air guide shovel to move up and down through the air cylinder assembly or the lead screw feeding assembly.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a side view of the structure of FIG. 1;

in the figure: 1. the device comprises an upper air guide shovel, a lower air guide shovel, a pull rope, a support 5, a guide pipe, a fixed pulley, a pulley shaft 7, a pulley shaft 8, a guide groove 9, a connecting plate 10, a force application plate 11, a pressure receiving plate 12, a lower air grid 13, an upper air grid 14, a rack 15, a glass outlet 16, a glass inlet 17 and a glass conveying roller way.

Detailed Description

In order to make the technical solutions of the present invention better understood by those skilled in the art, the technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the examples of the present invention, and it is obvious that the described examples are only a part of examples of the present invention, and not all examples. Based on the examples in the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

In the description of the present embodiment, the terms "inside", "outside", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

To clearly illustrate the design concept of the present invention, the following description is made with reference to the examples.

The utility model provides a glass tempering cooling air grid with regulation type air guide shovel, set up on glass tempering furnace's the frame 14, the both ends of frame 14 have glass entry 16 and glass export 15, cooling air grid between glass entry 16 and the glass export 15 includes air guide shovel subassembly, windward grid 13 and leeward grid 12, be equipped with the glass rollgang 17 that extends to glass export 15 by glass entry 16 between windward grid 13 and the leeward grid 12, windward grid 13 and leeward grid 12 are driven by elevating system respectively and are reciprocated, drive through elevating system, can change the interval between the transport surface of windward grid 13 and leeward grid 12 apart from glass rollgang 17.

The wind guide shovel component comprises an upper wind guide shovel 1, a lower wind guide shovel 2 and a fixed pulley component; at least one fixed pulley assembly is respectively fixed on the front side and the rear side of the rack 14, the direction of the drawing 1 is taken as reference, the left and right directions of the drawing 1 are two ends of the rack 14, the front and rear directions of the drawing 1 are the front and rear sides of the rack 14, one end of the fixed pulley assembly is connected with the end part of the upper air guide shovel 1, the other end of the fixed pulley assembly is connected with the end part of the lower air guide shovel 2, the upper air guide shovel 1 and the lower air guide shovel 2 are respectively arranged above and below the glass conveying roller way 17, and the lower edge of the upper air guide shovel 1 and the upper edge of the lower air guide shovel 2 are both close to the conveying surface of; and a power mechanism is connected to the fixed pulley assembly, or the upper air guide shovel 1 or the lower air guide shovel 2 is connected with power equipment.

The number of the fixed pulley components is two, and the fixed pulley components are respectively fixed on the front side and the rear side of the frame 14 on the glass inlet 16 side.

The fixed pulley assembly is one and is fixed in the middle of the frame 14 at the glass inlet 16 side.

When the power equipment connected with the upper air guiding shovel 1 is an upper air grid 13, the upper air guiding shovel 1 is fixedly connected or in contact connection with the upper air grid 13, and the upper air guiding shovel 1 drives the lower air guiding shovel 2 to lift through the fixed pulley assembly; or, when the power equipment connected with the lower air guiding shovel 2 is the lower air grid 12, the lower air guiding shovel 2 is fixedly connected or in contact connection with the lower air grid 12, and the lower air guiding shovel 2 drives the upper air guiding shovel 1 to lift through the fixed pulley assembly.

The contact connection is performed through a contact connection assembly, and the contact connection assembly comprises a force application plate 10 and a pressed plate 11; when the upper air guide shovel 1 is in contact connection with the upper air grid 13, the pressure receiving plate 11 is fixedly arranged on the upper air guide shovel 1, the force applying plate 10 is correspondingly arranged below the pressure receiving plate 11, and the force applying plate 10 is fixedly arranged on the upper air grid 13 on the side of the glass inlet 16; when the lower air guide shovel 2 is in contact connection with the lower air grid 12, a pressure receiving plate 11 is fixedly arranged on the lower air guide shovel 2, and a force applying plate 10 fixed on the lower air grid 12 on the glass inlet 16 side is correspondingly arranged above the pressure receiving plate 11. The contact connection is realized by applying force through an upper air grid 13 or a lower air grid 12, driving an upper air guide shovel 1 or a lower air guide shovel 2 to move through a force application plate 10 and a pressure receiving plate 11, and driving the air guide shovel at the other end to be linked through a fixed pulley assembly, thereby realizing the cleaning of the cullet. Because the pressure receiving plate 11 and the force applying plate 10 are not in direct contact, a section of idle stroke is given when the height of the wind guide shovel assembly is adjusted, namely when the upper air grid 13 or the lower air grid 12 needs to be lifted or lowered due to other factors, the position of the wind guide shovel assembly can be ensured to be unchanged. The contact-type connecting assembly can also be replaced by an air cylinder assembly, a hydraulic cylinder assembly, an electric cylinder assembly or an electric push rod assembly; one end of the cylinder assembly is fixed on the upper air grid 13 and the other end is close to the upper air guide shovel 1, or one end of the cylinder assembly is fixed on the lower air grid 12 and the other end is close to the lower air guide shovel 2. Accessible cylinder assembly promotes upper portion air guide shovel 1, drives lower part air guide shovel 2 linkage by fixed pulley assembly, perhaps promotes lower part air guide shovel 2 through cylinder assembly, drives upper portion air guide shovel 1 linkage by fixed pulley assembly. When the upper air grid 13 or the lower air grid 12 drives the air guide shovel to move through the contact-type connecting assembly, the air cylinder assembly or the screw rod feeding assembly can also play a role in supplementing displacement.

The fixed connection is through adjusting the seat and connecting, further adjust upper portion air guide shovel or lower part air guide shovel when the grid blows wind through adjusting the seat, the distance between the conveying surface of location apart from glass rollgang 17.

Air guide shovel subassembly still includes guiding mechanism, and guiding mechanism includes 5 and sets up the vertical guide way 8 on the 14 left and right sides of frame in glass entry 16 side, and guiding pipe 5 is two at least, and it sets up on upper portion air guide shovel 1 and/or lower part air guide shovel 2, and the slip setting of guiding pipe 5 is in guide way 8, realizes that the rising or the fall-back of air guide shovel subassembly can not squint, plays the guide effect. When the connection is in a contact type, the upper and lower air guide shovels are provided with guide mechanisms; when in direct fixed connection, only the following one of the air guide shovels has a guide assembly.

The fixed pulley assembly comprises a fixed pulley 6 and a pull rope 3, the pull rope 3 bypasses the fixed pulley 6, one end of the pull rope 3 is connected with the upper air guide shovel 1, and the other end of the pull rope 3 is connected with the lower air guide shovel 2.

The upper air guide shovel 1 is a double-layer or multi-layer air guide shovel, can increase the weight of the upper air guide shovel, is convenient to return, and can play a role in dual isolation of cooling air.

The pull rope 3 is a steel wire rope, and the fixed pulley is a steel wire rope pulley; or the pull rope is a chain, and the fixed pulley is a chain wheel. The fixed pulley 6 is connected with a power mechanism which can drive the fixed pulley 6 to rotate, or the power mechanism is connected to the pull rope 3 to pull the pull rope 3 to move up and down.

Example 1

Referring to fig. 1 and 2, a glass tempering cooling air grid with an adjustable air guide shovel comprises an air guide shovel component, an upper air grid 13 and a lower air grid 12, wherein the air guide shovel component comprises an upper air guide shovel 1, a lower air guide shovel 2, a pressure receiving plate 11, a force applying plate 10, two fixed pulleys 6 and two pull ropes 3, the two fixed pulleys 6 are fixed on the front and rear sides of a frame 14 on the side of a glass inlet 16, the two pull ropes 3 respectively span one fixed pulley 6 on the front and rear sides, one end of each pull rope 3 is respectively connected with the front and rear ends of the upper air guide shovel 1, the other end of each pull rope 3 is respectively connected with the front and rear ends of the lower air guide shovel 2, the upper air guide shovel 1 and the lower air guide shovel 2 are vertically arranged above and below a glass conveying roller way 17, the lower edge of the upper air guide shovel 1 is close to the conveying surface of the glass conveying roller way 17, the upper edge of the lower air guide shovel 2 is close to the conveying surface of the, the lower air guide shovel 2 is connected with the lower air grid 12 in a contact mode, a pressure receiving plate 11 is fixedly arranged on the lower air guide shovel 2, and a force applying plate 10 fixed on the lower air grid 12 on the side of the glass inlet 16 is correspondingly arranged above the pressure receiving plate 11. The fixed pulley assembly comprises a fixed pulley 6 and a pull rope 3, the pull rope 3 bypasses the fixed pulley 6, one end of the pull rope 3 is connected with the upper air guide shovel 1, and the other end of the pull rope 3 is connected with the lower air guide shovel 2. The air guide shovel component further comprises a guide mechanism, the guide mechanism comprises guide pipes 5 and vertical guide grooves 8 arranged on the left side and the right side of the rack 14 on the side of the glass inlet 16, the upper air guide shovel 1 and the lower air guide shovel 2 are respectively provided with the two guide pipes, and one ends of the guide pipes 5 are arranged in the guide grooves 8 in a sliding mode. The weight of the upper air guide shovel is larger than that of the lower air guide shovel; when the broken condition of glass appears, down wind grid 12 moves one section distance after downwards, application of force board 10 and the contact of receiving plate 11, by application of force board 10 to receiving plate 11 application of force, promote lower part air guide shovel 2 along 8 downstream of guide way, simultaneously through the transmission of stay cord 3, upper portion air guide shovel 1 also moves along 8 upstream of guide way, accomplish the clearance back, when the rising playback of wind grid 12 down, receive the force of plate 11 no longer, upper portion air guide shovel 1 falls back through self gravity, draw lower part air guide shovel 2 back the normal position.

Example 2

Embodiment 2 differs from embodiment 1 in that the upper air guide shovel 1 and the upper air grid 13 are connected in a contact manner. Fixed being equipped with on upper portion air guide shovel 1 receives the pressure sheet 11, the below correspondence that receives pressure sheet 11 is provided with the application of force board 10 of fixing on the last wind grid 13 of glass entry 16 side, after a section distance of last wind grid 13 rebound, application of force board 10 and the contact of receiving pressure sheet 11, by application of force board 10 to receiving pressure sheet 11 application of force, promote upper portion air guide shovel 1 upward movement, simultaneously through the transmission of stay cord, lower part air guide shovel 2 also downstream, when last wind grid 13 fall-back, receive pressure sheet 11 no longer atress, upper portion air guide shovel 1 falls through self gravity, draw lower part air guide shovel 2 back the normal position.

Example 3

Embodiment 3 is different from embodiment 1 in that the lower air guide shovel 2 and the lower air grid 12 are fixedly connected, and the guide mechanism is only arranged corresponding to the upper air guide shovel 1 at this time, and includes a guide pipe 5 and vertical guide grooves 8 arranged on the left and right sides of the frame 14 on the glass inlet 16 side, the upper air guide shovel 1 is provided with two guide pipes, and one end of the guide pipe 5 is slidably arranged in the guide groove 8. The fixed pulley 6 is a steel wire rope pulley, the pull rope 3 is a steel wire rope, when the glass breaking condition occurs, the lower air grid 12 is directly driven to move downwards when moving downwards, meanwhile, the upper air grid 1 also moves upwards through the transmission of the steel wire rope, after the cleaning is completed, the lower air grid 12 rises to return, the lower air grid 2 is driven to return, and the upper air grid 1 returns simultaneously.

Example 4

Embodiment 4 is different from embodiment 2 in that the upper air guide shovel 1 and the upper air grid 13 are directly and fixedly connected, and the guide mechanism is only arranged corresponding to the lower air guide shovel 2 at this time, and includes a guide pipe 5 and vertical guide grooves 8 arranged on the left and right sides of the frame 14 on the glass inlet 16 side, the lower air guide shovel 2 is provided with two guide pipes, and one end of the guide pipe 5 is slidably arranged in the guide groove 8. When the broken condition of glass appears, when the air grid 13 upwards moved, directly driven upper portion air guide shovel 1 upwards moved, simultaneously through the transmission of stay cord, lower part air guide shovel 2 also downstream, accomplished the clearance after, air grid 13 fell back, drive upper portion air guide shovel 1 and fall back, simultaneously through the transmission of stay cord lower part air guide shovel 2 also upwards moved and fell back.

Example 5

A glass tempering cooling air grid with an adjustable air guide shovel is arranged on a rack 14, a glass inlet 16 and a glass outlet 15 are arranged at two ends of the rack 14, the cooling air grid comprises an air guide shovel component, an upper air grid 13 and a lower air grid 12, a glass conveying roller way 17 is arranged between the upper air grid 13 and the lower air grid 12, the upper air grid 13 and the lower air grid 12 are driven by a lifting mechanism to move up and down respectively, and the air guide shovel component comprises an upper air guide shovel 1, a lower air guide shovel 2 and a fixed pulley component; the two fixed pulley assemblies are respectively fixed on the front side and the rear side of the rack 14, one end of each fixed pulley assembly is connected with the end of the upper air guide shovel 1, the other end of each fixed pulley assembly is connected with the end of the lower air guide shovel 2, the upper air guide shovel 1 and the lower air guide shovel 2 are respectively arranged above and below the glass conveying roller way 17, and the lower edge of the upper air guide shovel 1 and the upper edge of the lower air guide shovel 2 are both close to the conveying surface of the glass conveying roller way 17; the weight of the upper air guide shovel 1 is larger than that of the lower air guide shovel 2. The contact coupling assembling between upper portion air guide shovel 1 and the last air grid 13 is the cylinder subassembly, and the one end of cylinder subassembly is fixed on last air grid 13, and the other end is close to upper portion air guide shovel 1, and upper portion air guide shovel 1 drives lower part air guide shovel 2 through fixed pulley assembly and realizes going up and down. The upper air guide shovel 1 can be pushed through the action of the air cylinder assembly, and the lower air guide shovel 2 is linked through the fixed pulley assembly. When the air cylinder component acts and retracts, the upper air guide shovel 1 drives the lower air guide shovel 2 to return by means of self gravity. The adjustment range can be further expanded. Meanwhile, the cylinder assembly may be replaced with a hydraulic cylinder assembly, an electric cylinder assembly or an electric push rod assembly.

Example 6

The components of embodiment 6 are the same as those of embodiment 5, except that the contact-type connecting assembly between the lower air guiding shovel 2 and the lower air grid 12 is connected through an air cylinder assembly, one end of the air cylinder assembly is fixed on the lower air grid 12, the other end of the air cylinder assembly is close to the lower air guiding shovel 2, and the lower air guiding shovel 2 drives the upper air guiding shovel 1 to lift through a fixed pulley assembly. Accessible cylinder assembly action promotes lower part air guide shovel 2, through fixed pulley assembly linkage upper portion air guide shovel 1, when the cylinder assembly action was withdrawed, upper portion air guide shovel 1 relied on self gravity to drive lower part air guide shovel 2 return. The adjustment range can be further expanded. Meanwhile, the cylinder assembly may be replaced with a hydraulic cylinder assembly, an electric cylinder assembly or an electric push rod assembly.

Example 7

A glass tempering cooling air grid with an adjustable air guide shovel is arranged on a rack 14, a glass inlet 16 and a glass outlet 15 are arranged at two ends of the rack 14, the cooling air grid comprises an air guide shovel component, an upper air grid 13 and a lower air grid 12, a glass conveying roller way 17 is arranged between the upper air grid 13 and the lower air grid 12, the upper air grid 13 and the lower air grid 12 are driven by a lifting mechanism to move up and down respectively, and the air guide shovel component comprises an upper air guide shovel 1, a lower air guide shovel 2 and a fixed pulley component; fixed pulley assembly has two, fix both sides around frame 14 respectively, fixed pulley assembly includes that fixed pulley 6 and stay cord 3 constitute, stay cord 3 walks around fixed pulley 6, the one end and the upper portion air guide shovel 1 of stay cord 3 are connected, the other end and the lower part air guide shovel 2 of stay cord 3 are connected, power unit connects on fixed pulley 6, it rotates to drive the pulley, fixed pulley 6 is the sprocket, stay cord 3 is the chain, motor element can be chooseed for use to this power unit, it reciprocates to do benefit to the sprocket drive chain with motor lug connection, thereby control reciprocating of upper portion air guide shovel 1 and lower part air guide shovel 2.

Example 8

The parts of embodiment 8 are the same as those of embodiment 7, except that the fixed pulley assembly comprises a fixed pulley 6 and a pull rope 3, the pull rope 3 goes around the fixed pulley 6, one end of the pull rope 3 is connected with the upper air guide shovel 1, the other end of the pull rope 3 is connected with the lower air guide shovel 2, the power mechanism is connected to the pull rope 3, the pull rope 3 is pulled to move up and down, the power mechanism can select an air cylinder assembly or an electric push rod assembly, and the pull rope 3 is pulled to drive the upper air guide shovel 13 and the lower air guide shovel 14 to move towards each other.

Example 9

A glass tempering cooling air grid with an adjustable air guide shovel is arranged on a rack 14, a glass inlet 16 and a glass outlet 15 are arranged at two ends of the rack 14, the cooling air grid comprises an air guide shovel component, an upper air grid 13 and a lower air grid 12, a glass conveying roller way 17 is arranged between the upper air grid 13 and the lower air grid 12, the upper air grid 13 and the lower air grid 12 are driven by a lifting mechanism to move up and down respectively, and the air guide shovel component comprises an upper air guide shovel 1, a lower air guide shovel 2 and a fixed pulley component; the fixed pulley assembly is one and is fixed in the middle of a rack 14 on the side of a glass inlet 16, the fixed pulley assembly comprises a fixed pulley 6 and a pull rope 3, the pull rope 3 bypasses the fixed pulley 6, one end of the pull rope 3 is connected with an upper air guide shovel 1, and the other end of the pull rope 3 is connected with a lower air guide shovel 2. The power equipment connected with the upper air guide shovel 1 is a linear motion mechanism, the linear motion mechanism is fixed on the rack 14, and the upper air guide shovel 1 drives the lower air guide shovel 2 to lift through a fixed pulley assembly; or the power equipment connected with the lower air guide shovel 2 is a linear motion mechanism, the linear motion mechanism is fixed on the rack 14, and the lower air guide shovel 2 drives the upper air guide shovel 1 to lift through a fixed pulley assembly; the linear action mechanism is a cylinder component, a hydraulic cylinder component, an electric cylinder component or an electric push rod component, one end of the linear action mechanism is fixed on the frame, the other end of the linear action mechanism is connected with the upper air guide shovel 1 or the lower air guide shovel 2, when glass is broken and needs to be removed, the cylinder acts, and the lower air guide shovel 2 or the upper air guide shovel 1 is driven to move through the transmission of the fixed pulley component. Similarly, there may be three fixed pulley assemblies, two of which are fixed at the front and rear sides of the frame 14 at the glass inlet 16 side, and the other is fixed at the middle of the frame 14 at the glass inlet 16 side.

It is noted that some of the structures may be selected differently than the specific examples given above. These are all made by those skilled in the art based on their basic skills based on understanding the idea of the present invention, and are not illustrated herein.

Finally, it is to be understood that the above embodiments are merely exemplary embodiments that have been employed to illustrate the principles of the present invention, and that the present invention is not limited thereto. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit and scope of the invention, and these changes and modifications are to be considered as the protection scope of the invention.

Claims (11)

1. The utility model provides a glass tempering cooling air grid with regulation type air guide shovel, the setting is in frame (14), the both ends of frame (14) have glass entry (16) and glass export (15), the cooling air grid includes air guide shovel subassembly, windward gate (13) and leeward gate (12) between be equipped with glass rollgang (17), windward gate (13) and leeward gate (12) are driven by elevating system respectively and are reciprocated, its characterized in that: the wind guide shovel component comprises an upper wind guide shovel (1), a lower wind guide shovel (2) and a fixed pulley component; the number of the fixed pulley assemblies is at least one, one end of each fixed pulley assembly is connected with the end of the upper air guide shovel (1), the other end of each fixed pulley assembly is connected with the end of the lower air guide shovel (2), the upper air guide shovel (1) and the lower air guide shovel (2) are respectively arranged above and below the glass conveying roller table (17), and the lower edge of the upper air guide shovel (1) and the upper edge of the lower air guide shovel (2) are close to the conveying surface of the glass conveying roller table (17); and a power mechanism is connected on the fixed pulley assembly, or the upper air guide shovel (1) or the lower air guide shovel (2) is connected with power equipment.

2. The cooling air grid for glass tempering with the adjustable air guide shovel as claimed in claim 1, wherein: the two fixed pulley components are respectively fixed on the front side and the rear side of the frame (14) at the glass inlet (16) side.

3. The cooling air grid for glass tempering with the adjustable air guide shovel as claimed in claim 1, wherein: the power equipment connected with the upper air guiding shovel (1) is an upper air grid (13), the upper air guiding shovel (1) is fixedly connected or in contact connection with the upper air grid (13), and the upper air guiding shovel (1) drives the lower air guiding shovel (2) to lift through a fixed pulley assembly; or the power equipment connected with the lower air guide shovel (2) is a lower air grid (12), the lower air guide shovel (2) is fixedly connected or in contact connection with the lower air grid (12), and the lower air guide shovel (2) drives the upper air guide shovel (1) to lift through a fixed pulley assembly.

4. The cooling air grid for glass tempering with the adjustable air guide shovel as claimed in claim 3, wherein: the contact type connection is realized through a contact type connection assembly, and the contact type connection assembly comprises a force application plate (10) and a pressure receiving plate (11); when the upper air guide shovel (1) is in contact connection with the upper air grid (13), the pressure receiving plate (11) is fixedly arranged on the upper air guide shovel (1), the force applying plate (10) is correspondingly arranged below the pressure receiving plate (11), and the force applying plate (10) is fixed on the upper air grid (13) on the side of the glass inlet (16); when the lower air guide shovel (2) is in contact connection with the lower air grid (12), a pressure receiving plate (11) is fixedly arranged on the lower air guide shovel (2), and a force applying plate (10) fixed on the lower air grid (12) on the side of the glass inlet (16) is correspondingly arranged above the pressure receiving plate (11).

5. The cooling air grid for glass tempering with the adjustable air guide shovel as claimed in claim 3, wherein: the fixed connection is through adjusting the seat and connecting.

6. The cooling air grid for glass tempering with the adjustable air guide shovel as claimed in claim 1, wherein: air guide shovel subassembly still include guiding mechanism, guiding mechanism includes stand pipe (5) and sets up vertical guide way (8) of the left and right sides on frame (14) of glass entry (16) side, stand pipe (5) are two at least, stand pipe (5) set up on upper portion air guide shovel (1) and/or lower part air guide shovel (2), the one end of stand pipe (5) slides and sets up in guide way (8).

7. The cooling air grid for glass tempering with the adjustable air guide shovel as claimed in claim 1, wherein: the fixed pulley assembly comprises a fixed pulley (6) and a pull rope (3), the pull rope (3) bypasses the fixed pulley (6), one end of the pull rope (3) is connected with the upper air guide shovel (1), and the other end of the pull rope (3) is connected with the lower air guide shovel (2).

8. The cooling air grid for glass tempering with the adjustable air guide shovel as claimed in claim 7, wherein: the power mechanism is connected to the fixed pulley (6) to drive the pulley to rotate, or the power mechanism is connected to the pull rope (3) to pull the pull rope (3) to move up and down.

9. The cooling air grid for glass tempering with adjustable air guide shovel of any one of claims 7 or 8, characterized in that: the pull rope (3) is a steel wire rope, and the fixed pulley (6) is a steel wire rope pulley; or the pull rope (3) is a chain, and the fixed pulley (6) is a chain wheel.

10. The cooling air grid for tempering glass with an adjustable air guide shovel as claimed in any one of claims 1, 2 or 3, wherein: the weight of the upper air guide shovel (1) is greater than that of the lower air guide shovel (2).

11. The cooling air grid for glass tempering with the adjustable air guide shovel as claimed in claim 1, wherein: the power equipment connected with the upper air guide shovel (1) is a linear action mechanism, the linear action mechanism is fixed on the rack (14), and the upper air guide shovel (1) drives the lower air guide shovel (2) to lift through a fixed pulley assembly; or the power equipment connected with the lower air guide shovel (2) is a linear action mechanism, the linear action mechanism is fixed on the rack (14), and the lower air guide shovel (2) drives the upper air guide shovel (1) to lift through a fixed pulley assembly.

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